November 25, 2013      

KING?S COLLEGE?Engineers, scientists and mathematicians in the Center for Robotics Research (CoRe) at Kings College London are working on a number of different projects designed to take robot technology forward.

Working to a 25 year time-scale, their research is not about modest improvements to existing technologies but the foundation of fundamentally new solutions. Test rigs operating state of the art robots to try to develop new functions and capabilities.

One of its busiest test rigs is based on the RV3SD; one of the latest Mitsubishi Electric industrial robots, which is designed to offer high performance and reliability to address demanding applications across many industries. Utilizing Mitsubishi?s own servo and motion technologies, the robot provides the speed, precision, power and repeatability required for reliable testing and development projects.

Today?s robots impressive except?

Professor Maria Fox explains the Center?s strategic direction: ?Today?s robots are very impressive, especially when you consider how quickly they have developed since the first generation of the technology. We can now foresee the imminent achievement of a significant developmental goal, the ability to integrate multiple tasks of very different natures.

?For instance, if you define washing up as manipulating dirty crockery through hot soapy water, today?s robots can do that. But if you add in all the associated tasks – identifying crockery amongst other items, handling appropriately (for size, delicacy, slipperiness etc), changing the water, adding soap, checking for post-washing cleanliness, stacking, drying and putting away – we need a new far more versatile robot.

This is what we are aiming at with our current development programs.

?Additionally, if you then want your washing up robot to tidy the living room, vacuum the stairs, make the beds, walk the dog and check that the kids are OK, you?ll need another 50-100 years of development!?

Kaspar Althoefer, Professor of Robotics and Intelligent Systems and Head of the Center, says that some of the hardware associated with robots is already well developed and mature.

?It is difficult to improve upon the mechanics of a robot arm like the RV3SD. It performs its required functions very well, offering multiple axes of motion or ?degrees of freedom? and fulfills defined needs.?

Two arms, two hands work in unison

However there are other robot mechanisms ? such as hands – that are in their infancy. Today?s hands tend to have rigid palms; their fingers are not fully autonomous and there is far too little real-time feedback on gripping pressure and friction with the object being held.

?We have several hands in development that mimic far more closely the abilities of a human hand – and we can foresee them, say, peeling an orange or making accurate origami models.?

If you watch a person performing such tasks, it is notable that it is not just one hand that is moving. Usually two hands work in unison, and this requires that the arms are also performing synchronized and coordinated movements. The Center is focused on understanding these processes, and Mitsubishi control technology is providing the data processing power.

Mitsubishi has been able to develop robots that are capable of assessing incoming data and determining appropriate responses immediately. Its new CRD series of robot controllers come with an option to integrate the robot control system directly with the iQ controller platform.

Because this removes the need to have a dedicated communications network between the controller platform and the robot controller, the system is inherently faster and more reliable, allowing millisecond response to sensor readings. The robot controller can analyze signals from ultrasonic, infrared and laser proximity sensors, cameras and force/torque sensors, and then plan the robot movements accordingly.

The system also incorporates collision avoidance, object identification and multi-dimensional decision making etc. Professor Althoefer says that the Center?s areas of interest include robot motion planning, programming, modeling and control.

?We are also looking at the kinematics and dynamics of robot manipulators, neuro-fuzzy navigation for mobile robots and many other fields. ?One of the common denominators in our work for many years to come will be steadily increasing the ability to absorb vast amounts of incoming real-time data, process it and make appropriate decisions about how the robots react.

One of the long-term goals is to create robots that behave similarly to humans and can interact with humans in a natural way.?